CN218984236U - Optical lens surface polishing machine with flushing function - Google Patents

Abstract

The utility model relates to the technical field of optical lens processing equipment and discloses an optical lens surface polishing machine with a flushing function, which solves the problems that polishing of the polishing machine is discontinuous, working efficiency is low, cleaning liquid is inconvenient to recycle.

Description

Optical lens surface polishing machine with flushing function

Technical Field

The utility model relates to the technical field of optical lens processing equipment, in particular to an optical lens surface polishing machine with a flushing function.

Background

After the optical lens is finely ground by the grinding liquid, the surface of the optical lens is provided with a crack layer with the thickness of about 2-3m, and the method for eliminating the crack layer is polishing. The polishing and grinding mechanism is the same, except that the materials of the used tools are different from polishing liquid, the materials used for polishing are flannelette, polishing leather and asphalt, a high-precision polishing surface is usually achieved, the most commonly used materials are high-grade polishing asphalt, asphalt is used for polishing, the fine surface of asphalt drives the polishing liquid to grind the surface of a lens to generate heat, so that glass is melted and flowed, rough peaks are melted and filled with the bottoms of cracks, and a crack layer is gradually removed.

However, when the current optical lenses are polished, continuous polishing and cleaning are inconvenient, a plurality of optical lenses are placed at one time, then the polishing is started, the machine is stopped after the polishing, then the optical lenses are taken out manually and integrally, the operation flow is troublesome, the working efficiency is low, and the cleaning liquid is inconvenient to recycle and wastes resources.

The problems described above are addressed. For this purpose, an optical lens surface polisher with a rinsing function is proposed to solve the above problems.

Disclosure of Invention

The utility model aims to solve the problems of discontinuous polishing, low working efficiency and inconvenient recycling of cleaning liquid.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an optical lens surface polishing machine with washing function, includes the rose box and installs the group of placing at rose box upper end middle part, is provided with the support frame on the rose box that is located to place group one side, is provided with the subassembly of polishing on the support frame, its characterized in that: the upper end of placing the dish group can place 8 at least optical lenses, and the other end of support frame is provided with washs the piece, and the upper end of wasing the piece is provided with the honeycomb duct, and the upper end of honeycomb duct runs through the upper end of support frame, and the lower extreme is connected with the rose box intercommunication, places the dish group including the rotary disk and is annular setting at rotary disk upper end optical lens and bear the weight of the subassembly, and the lower extreme middle part of rotary disk is provided with the second servo motor, and the second servo motor is fixed to be set up inside the supporting shell.

Preferably, the polishing assembly comprises a driving cylinder and a first servo motor arranged at the driving end of the driving cylinder, the driving end of the driving cylinder penetrates through the supporting frame, the driving end of the first servo motor is provided with a polishing disc, and the upper end of the first servo motor is provided with a limiting guide post which is movably connected with the supporting frame.

Preferably, the optical lens bearing assembly comprises a supporting ring and a buffer spring fixedly arranged at the lower end of the supporting ring and used for buffering, a first perforation for water to pass through is formed in the upper end of the supporting ring in a penetrating mode, a concave groove which is concave downwards is formed in the upper end of the supporting ring, a water tank is formed in the upper end of the rotating disk, a filter disk is arranged in the middle of the water tank in a surrounding mode, and a second perforation is formed in the rotating disk located at the lower end of the optical lens bearing assembly.

Preferably, the filter tank comprises a collecting tank body and a supporting shell arranged in the middle of the inner side of the collecting tank body, a through hole is formed in the filter tank, a filter disc group is arranged on the outer side of the middle of the supporting shell in a surrounding mode, the filter disc group comprises a first filter disc, a second filter disc and a third filter disc which are stacked from top to bottom, holes of the first filter disc are larger than those of the second filter disc, holes of the second filter disc are larger than those of the third filter disc, a small water pump and a filter cover arranged at the water inlet end of the small water pump are further arranged in the collecting tank body, a water guide pipe is arranged at the output end of the small water pump, and the output end of the water guide pipe is connected with the guide pipe in a communicating mode.

Compared with the prior art, the utility model has the following beneficial effects:

according to the optical lens surface polishing machine with the flushing function, a plurality of optical lenses are placed on the rotary disc, the polishing assembly is started to polish, the polishing assembly is operated reversely after polishing is finished, the second servo motor rotates to drive the rotary disc to rotate, so that the next optical lens is located at the lower end of the polishing assembly, meanwhile, the polished optical lens is located at the lower end of the cleaning piece to be cleaned synchronously, cleaning liquid flows into the filter box to complete water circulation, the whole device can polish the plurality of optical lenses simultaneously, the polished optical lens surfaces are cleaned simultaneously, the whole process operation is continuous, the working efficiency is high, polishing water can be used in a circulating mode, water resources are saved, and water changing operation is reduced.

Drawings

FIG. 1 is a schematic overall perspective view of the present utility model;

FIG. 2 is a schematic perspective view of an optical lens carrier assembly according to the present utility model;

FIG. 3 is a schematic perspective view of a tray set according to the present utility model;

FIG. 4 is a schematic perspective view of a sanding assembly of the present utility model;

fig. 5 is a schematic view showing the internal cross-sectional structure of the filter box of the present utility model.

In the figure: 1. a filter box; 11. a collection box; 111. a through hole; 12. a support case; 13. a filter tray set; 131. a first filter tray; 132. a second filter tray; 133. a third filter tray; 14. a small water pump; 15. a filter cover; 16. a water conduit; 2. placing a disc group; 21. an optical lens carrying assembly; 211. a support ring; 212. a buffer spring; 213. a first perforation; 214. a groove; 23. a second servo motor; 22. a rotating disc; 221. a water tank; 222. a filter tray; 223. a second perforation; 3. a support frame; 4. a polishing assembly; 41. a driving cylinder; 42. a first servo motor; 43. polishing the grinding disc; 44. limiting guide posts; 5. cleaning a piece; 6. a flow guiding pipe; 7. an optical lens.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

For a further understanding of the present utility model, the present utility model will be described in detail with reference to the drawings.

Referring to fig. 1-5, an optical lens surface polishing machine with a flushing function of the present utility model includes a filter box 1 and a placing disc set 2 installed in the middle of the upper end of the filter box 1, wherein a plurality of optical lenses 7 can be placed at the upper end of the placing disc set 2, a support frame 3 is disposed on the filter box 1 at one side of the placing disc set 2, the support frame 3 is splayed, one end is provided with a polishing component 4, the polishing component 4 includes a driving cylinder 41 and a first servo motor 42 disposed at the driving end of the driving cylinder 41, the driving end of the driving cylinder 41 penetrates through the support frame 3, the driving end of the first servo motor 42 is provided with a polishing disc 43, the upper end of the first servo motor 42 is provided with a limiting guide post 44, the limiting guide post 44 is movably connected with the support frame 3 for maintaining stability when the first servo motor 42 is driven, the other end of the support frame 3 is provided with a cleaning member 5, the upper end of the cleaning member 5 is provided with a guide pipe 6, the upper end of the guide pipe 6 penetrates through the upper end of the support frame 3, and the lower end is connected with the filter box 1.

The placing disc set 2 comprises a rotary disc 22 and an optical lens bearing assembly 21 which is annularly arranged at the upper end of the rotary disc 22, a second servo motor 23 is arranged in the middle of the lower end of the rotary disc 22, and the second servo motor 23 is fixedly arranged inside the supporting shell 12.

The optical lens bearing assembly 21 comprises a supporting ring 211 and a buffer spring 212 fixedly arranged at the lower end of the supporting ring 211 and used for buffering, a first through hole 213 used for water to pass through is formed in the upper end of the supporting ring 211 in a penetrating mode, and a concave groove 214 which is downwards concave is formed in the upper end of the supporting ring 211 and used for guaranteeing stability of the optical lens 7 during polishing.

The upper end of rotary disk 22 has seted up basin 221, and the middle part of basin 221 encircles and is provided with filter disc 222, has seted up second perforation 223 on the rotary disk 22 that is located optical lens and bears the weight of subassembly 21 lower extreme, and filter disc 222 and second perforation 223 all communicate with through-hole 111 for collect abluent water in the collecting box body 11.

The filter box 1 includes collecting box body 11 and sets up the support shell 12 at collecting box body 11 inboard middle part, has seted up through-hole 111 on the filter box 1, is located the middle part outside of support shell 12 and encircles and be provided with filter disc group 13, and filter disc group 13 includes first filter disc 131, second filter disc 132 and the third filter disc 133 that top-down stacks, and the aperture of first filter disc 131 is greater than second filter disc 132, and the aperture of second filter disc 132 is greater than third filter disc 133, improves the filter effect.

The inside of the collecting box 11 is also provided with a small water pump 14 and a filter cover 15 arranged at the water inlet end of the small water pump 14, the output end of the small water pump 14 is provided with a water guide pipe 16, and the output end of the water guide pipe 16 is communicated and connected with the guide pipe 6.

Working principle: the plurality of optical lenses 7 are placed on the supporting ring 211, then the driving cylinder 41 is started to drive the first servo motor 42 to move downwards, so that the polishing disc 43 is sleeved on the upper end of the optical lenses 7, the buffer spring 212 is extruded at the moment, polishing is carried out, after polishing is finished, the driving cylinder 41 moves reversely, the second servo motor 23 rotates to drive the supporting ring 211 to rotate, so that the next optical lens 7 is positioned at the lower end of the polishing disc 43, meanwhile, the polished optical lens 7 is positioned at the lower end of the cleaning piece 5, the small water pump 14 is started to enable cleaning water to be sprayed out from the cleaning piece 5, the optical lenses 7 are synchronously cleaned, cleaning liquid flows into the filter disc set 13 from the first perforation 213, the filter disc 222 and the second perforation 223 through the through holes 111, and flows into the collecting box 11 through the filter, water circulation is completed, the whole device can polish the plurality of optical lenses 7 simultaneously, the polished surfaces of the optical lenses 7 can be cleaned simultaneously, polishing water can be used circularly, water resources are saved, and operation is reduced.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides an optical lens surface polishing machine with washing function, includes rose box (1) and installs at placing dish group (2) at rose box (1) upper end middle part, is provided with support frame (3) on being located rose box (1) of placing dish group (2) one side, is provided with polishing assembly (4), its characterized in that on support frame (3): at least 8 optical lenses (7) can be placed at the upper end of the placement disc group (2), a cleaning piece (5) is arranged at the other end of the support frame (3), a flow guide pipe (6) is arranged at the upper end of the cleaning piece (5), the upper end of the flow guide pipe (6) penetrates through the upper end of the support frame (3), and the lower end of the flow guide pipe is communicated and connected with the filter box (1);

the placing disc group (2) comprises a rotating disc (22) and an optical lens bearing assembly (21) which is arranged at the upper end of the rotating disc (22) in a ring shape, a second servo motor (23) is arranged in the middle of the lower end of the rotating disc (22), and the second servo motor (23) is fixedly arranged in the supporting shell (12).

2. An optical lens surface polishing machine with rinsing function as set forth in claim 1, wherein: the polishing assembly (4) comprises a driving air cylinder (41) and a first servo motor (42) arranged at the driving end of the driving air cylinder (41), the driving end of the driving air cylinder (41) penetrates through the supporting frame (3), and a polishing disc (43) is arranged at the driving end of the first servo motor (42).

3. An optical lens surface polishing machine with rinsing function as set forth in claim 2, wherein: the upper end of the first servo motor (42) is provided with a limiting guide column (44), and the limiting guide column (44) is movably connected with the support frame (3).

4. An optical lens surface polishing machine with rinsing function as set forth in claim 1, wherein: the optical lens bearing assembly (21) comprises a supporting ring (211) and a buffer spring (212) fixedly arranged at the lower end of the supporting ring (211) and used for buffering, a first through hole (213) used for water to pass through is formed in the upper end of the supporting ring (211) in a penetrating mode, and a concave groove (214) recessed downwards is formed in the upper end of the supporting ring (211).

5. An optical lens surface polishing machine with rinsing function as set forth in claim 1, wherein: the upper end of the rotary disc (22) is provided with a water tank (221), the middle part of the water tank (221) is provided with a filter disc (222) in a surrounding mode, and the rotary disc (22) positioned at the lower end of the optical lens bearing assembly (21) is provided with a second perforation (223).

6. An optical lens surface polishing machine with rinsing function as set forth in claim 1, wherein: the filter box (1) comprises a collecting box body (11) and a supporting shell (12) arranged in the middle of the inner side of the collecting box body (11), through holes (111) are formed in the filter box (1), and a filter disc group (13) is arranged on the outer side of the middle of the supporting shell (12) in a surrounding mode.

7. The optical lens surface polishing machine with rinsing function according to claim 6, wherein: the filter disc group (13) comprises a first filter disc (131), a second filter disc (132) and a third filter disc (133) which are stacked from top to bottom, wherein holes of the first filter disc (131) are larger than those of the second filter disc (132), and holes of the second filter disc (132) are larger than those of the third filter disc (133).

8. The optical lens surface polishing machine with rinsing function according to claim 6, wherein: the collecting box body (11) is internally provided with a small water pump (14) and a filter cover (15) arranged at the water inlet end of the small water pump (14), the output end of the small water pump (14) is provided with a water guide pipe (16), and the output end of the water guide pipe (16) is communicated and connected with the guide pipe (6).

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